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2D Quantum & Spin Materials Workshop

2D Quantum & Spin Materials Workshop

This workshop will bring together leading researchers, academics, and students to discuss the latest advancements, challenges, and future directions in the study of  2D materials that exhibit intriguing quantum and spin phenomena.

 

Date: Wednesday 24 September 2025
Time: 11:15 - 13:15
Organisers: 2DSPIN-TECH Project

Session 1, chaired by Saroj Prasad Dash

11:15 -11:45 "Anisotropic spin dynamics and tunable spin-orbit fields in proximitised graphene" Sergio O. Valenzuela, ICN2, Spain

11:45 -12:15 "Towards Quantum Spintronics with Graphene-based Magnetic Heterostructures" Talieh S. Ghiasi, Harvard University, USA

Session 2, chaired by Ivan Vera Marun

12:15 -12:45 "Electrical switching of magnetic phases in Bernal bilayer graphene" Bernd Beschoten, RWTH Aachen University, Germany

12:45 -13:20 "15 Spintronics: from Spinterface to large scale 2D magnets" Pierre Seneor, CNRS/Thales, France

Speakers

Bernd Beschoten
2D Quantum & Spin Materials

Bernd Beschoten

RWTH Aachen University, Germany

Saroj Prasad Dash
2D Quantum & Spin Materials

Saroj Prasad Dash

Chalmers University, Sweden

Bernd Beschoten
2D Quantum & Spin Materials

Bernd Beschoten

2D Quantum and Spin Materials

Wednesday 24, 11:15 - 13:15

 

Title: Electrical switching of magnetic phases in Bernal bilayer graphene

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Pierre Seneor
2D Quantum & Spin Materials

Pierre Seneor

2D Quantum & Spin Materials

Wednesday 24, 11:15 - 13:15

 

Bio: Pr. Pierre Seneor is full professor at the University of Paris-Saclay in Orsay. He received his PhD from Ecole Polytechnique in 2000 under the supervision of Albert Fert (Physics Nobel 2007) working on spin dependent tunneling in oxides. After a postdoctoral appointment at the California Institute of Technology working on superconductivity, he came back to CNRS/THALES corp. joint industrial/academic laboratory (now Laboratoire Albert Fert) while joining in 2003 the Physics Department of University of Paris-Sud (now Paris-Saclay) in Orsay. He was awarded Fellow of the Institut Universitaire de France excellency institute. He is now co-head of the Paris-Saclay’s Master 2 Quantum, Light, Materials, and Nanosciences. His current research interests include exploring the physics of novel molecular and 2D materials in low dimension towards nanoelectronics, quantum materials and spintronics devices.

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Saroj Prasad Dash
2D Quantum & Spin Materials

Saroj Prasad Dash

2D Quantum & Spin Materials

Wednesday 24, 11:15-13:15

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Sergio O. Valenzuela
2D Quantum & Spin Materials

Sergio O. Valenzuela

2D Quantum & Spin Materials

Wednesday 24, 11:15 - 13:15
Title: Anisotropic spin dynamics and tunable spin-orbit fields in proximitized graphene
Bio: Sergio Valenzuela obtained his PhD in Physics in 2001 at the Universidad de Buenos Aires (Argentina) and held research positions at Harvard University and the Massachusetts Institute of Technology (MIT). Since July 2008 he has been an ICREA Research Professor and leader of the ICN2 Physics and Engineering of Nanodevices Group. His research is focused on the unique properties of materials with nanoscale dimensions, motivated by both their intrinsic scientific interest and their potential for advanced electronic applications. His work encompasses spintronics, quantum computation with superconducting circuits and quantum metrology. Together with his collaborators, he has pioneered the use of non- local devices to study the spin Hall effect and of thermopiles to isolate the magnon drag in ferromagnetic materials, and he has implemented novel qubit control and spectroscopy methods. He is a Fellow of the American Physical Society and an Elected Member of the of the Academia Europaea.
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Talieh S. Ghiasi
2D Quantum & Spin Materials

Talieh S. Ghiasi

2D Quantum & Spin Materials

Wednesday 24, 11:15 - 13:15
Title: Towards Quantum Spintronics with Graphene-based Magnetic Heterostructures
Bio: Dr. Talieh Ghiasi is a Rubicon postdoctoral fellow at Harvard University and will join TU Delft as an assistant professor in August 2025. She received her PhD in spintronics with cum laude distinction from the University of Groningen, the Netherlands. Her pioneering work on spin transport in graphene-based van der Waals heterostructures was recognised with the Minerva Prize by the Dutch Physics Council. Her research focuses on developing two-dimensional quantum spintronic devices with novel functionalities by harnessing emergent spin-related phenomena in van der Waals heterostructures.
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